Linguistic Assistance Systems And Methods

ABSTRACT

System and Methods determine a linguistic preference between two or more phrases. Each of the phrases is submitted to at least one search engine as a search string. Search results are retrieved from each of the at least one search engine for each submitted search string and total hit values of each search result are compared. One of the two or more phrases associated with the greatest total hit value are displayed to a user as the preferred phrase.

RELATED APPLICATIONS

This application is a Division of application Ser. No. 12/347,240, filed Dec. 31, 2008 which claims priority to U.S. Provisional Application Ser. No. 61/018,604, filed Jan. 2, 2008. Both of the aforementioned applications are incorporated herein by reference.

BACKGROUND

Search engines are typically used to find articles and information on the World Wide Web (www) given a keyword, short phrase or other relevant input, hereinafter ‘search string’. A search engine typically returns a prioritized list of search results containing one or more hyperlinks. The user may then select (i.e., click on using a mouse or other input device) one of these hyperlinks to ‘jump’ to the associated web page that contains the search string. The search engine typically provides exemplary text, containing the search string, from each search result to thereby provide a context for the result to enable the user to identify the more appropriate search results without having to select each hyperlink in turn.

SUMMARY OF THE INVENTION

A user may use search results from a search engine on the World Wide Web (www) to assist when formulating sentences or text in a certain language, particularly where that language is not native to the user.

In one embodiment, the user enters a first search string containing the first option for a sought sentence or phrase. The search engine returns search results with context for each use of the first search string found in text posted to the www and a first total number of matches found. The first total number of matches found is noted. The user then enters a second search string containing a second option for the sought sentence or phrase. The search engine returns search results with context for each use of the second search string found in text posted to the www and a second total number of matches found. The first total number of matches found is compared to the second total number of matches found; the search string with the greater number of matches, the more probable that the search string is correct. For example, the sentence or phrase within the second search string is selected for use if the second total number of matches is greater than the first total number of matches.

In another embodiment, a user is attempting to form a phrase within a sentence but cannot think of the most appropriate wording. The user enters a search string containing the known words of the phrase. The search engine then returns search results with context for each use of the search string found in text posted to the www. The context may provide phrases using the given words thereby providing options for completing the sentence.

In another embodiment, a method determines a linguistic preference between two or more phrases. Each of the phrases is submitted to at least one search engine as a search string. Search results are retrieved from each of the at least one search engine for each submitted search string and total hit values of each search result are compared. One of the two or more phrases associated with the greatest total hit value are displayed to a user as the preferred phrase.

In another embodiment, a software product has instructions, stored on non-transitory computer-readable media, wherein the instructions, when executed by a computer, perform steps for utilizing a search engine to determining a linguistic preference between two or more phrases, including: instructions for submitting each of the phrases to the search engine as a search string; instructions for receiving search results from the search engine for each search string; instructions for comparing the total number of hits for each search string; and instructions for selecting the phrase with the largest number of associated hits as the preferred phrase.

In another embodiment, a method provides linguistic assistance to complete a phrase. A phrase is submitted as a search string to at least one search engine. A search result containing a plurality of context strings that match the search string is received from each of the at least one search engines. The context strings of each search result are analyzed to identify one or more phrases to complete the partial phrase.

In another embodiment, a system compares two or more phrases to determine a preferred one of the phrases. A linguistic analysis tool retrieves search results from at least one search engine for each of the two or more phrases, and the linguistic analysis tool evaluates the search results to determine the preferred one of the phrases. A linguistic interface identifies the two or more phrases, communicates with the linguistic analysis tool and identifies the preferred one of the phrases to a user.

In another embodiment, a system provides linguistic assistance in completing a phrase. A linguistic analysis tool retrieves search results from at least one search engine for the phrase, and processes the search results to determine the one or more follow-on phrases. A linguistic interface identifies the phrase, communicates with the linguistic analysis tool and displays one or more follow-on phrases for the phrase.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 shows one exemplary linguistic assistance system, of an embodiment.

FIG. 2 shows one exemplary linguistic assistance system having a remotely located linguistic analysis tool, of an embodiment.

FIG. 3 is a data flow diagram illustrating exemplary operation of the linguistic assistance system of FIG. 1 to use a search engine to determine a more correct phrase from a plurality of phrases.

FIG. 4 is a data flow diagram illustrating exemplary operation of the linguistic assistance system of FIG. 1 to use a search engine to complete a partial phrase.

FIG. 5 is a flowchart illustrating one exemplary method for selecting a most correct phrase using a search engine, in an embodiment.

FIG. 6 is a flowchart illustrating one exemplary method for completing a phrase, given a partial phrase, using a search engine, in an embodiment.

FIG. 7 shows one exemplary interface window that is presented by the linguistic interface of FIG. 1 to interact with a user.

FIG. 8 shows exemplary data for comparing two phrases using the linguistic assistance system of FIG. 1.

FIG. 9 shows exemplary data for completing a phrase using the linguistic assistance system of FIG. 1.

DETAILED DESCRIPTION OF THE FIGURES

FIG. 1 shows one exemplary linguistic assistance system 100 for assisting a user 101 with selection of appropriate linguistic phrases. System 100 is shown with a linguistic interface 108 for interacting with user 101 and a linguistic analysis tool 106 for interacting with one or more search engines and analyzing returned search results. Linguistic analysis tool 106 and linguistic interface 108 may operate on a computer 114 used by user 101. Linguistic interface 108 is shown within a word processor 110, and may operate within other linguistic based software applications, such as a spreadsheet or database application, without departing from the scope hereof.

Word processor 110 is shown with a text buffer 112 that represents storage of text being processed. In one embodiment, linguistic interface 108 may be implemented as an add-in tool for word processor 110. In an alternate embodiment, linguistic interface 108 may operate independently of word processor 110. In another embodiment, linguistic analysis tool 106 and linguistic interface 108 are combined.

Linguistic interface 108 interacts with user 101 to prepare one or more search phrases 116 that are submitted to linguistic analysis tool 106. For example, user 101 may wish to determine which of two phrases is more common, and therefore more correct. Linguistic interface 108 may interact with user 101 to determine other desired characteristics of search phrase 116, such as a linguistic category 124 which may be selected from the group including literary works, technical works, news articles, and general. In one example, if linguistic category 124 is technical works, search engine 102 is restricted to searching technical databases, such as patent databases, thereby restricting search results to those found within published patent information. Linguistic interface 108 may also define other search characteristics (shown as search characteristics 117) to specify the type of linguistic analysis (e.g., phrase comparison, phrase completion, etc.) to be performed by linguistic analysis tool 106. Linguistic interface 108 sends the search phrase, linguistic category 124 and other search characteristics 117 to linguistic analysis tool 106, which prepares one or more search string 120 and submits them to a search engine 102 via Internet 104 or other network connectivity. Search engine 102 may represent one or more of Google™, Yahoo!™, Ask™, etc. Search engine 102 returns search results 122 to linguistic analysis tool 106, via Internet 104, and linguistic analysis tool 106 analyzes search results 122 to determine at least one result phrase 130. In one embodiment, linguistic analysis tool 106 presents user 101 a choice based upon search results 122 via linguistic interface 108, such that user 101 may make an informed selection.

In one embodiment, linguistic interface 108 automatically inserts result phrase 130 into text buffer 112 of word processor 110 based upon user preferences. Further, linguistic interface 108 may monitor text buffer 112 interaction by user 101 to automatically determine when linguistic assistance would be of benefit. For example, by monitoring indecision and hesitation of input to text buffer 112 by user 101, linguistic interface 108 may automatically identify one or more phrases from text buffer 112, send these phrases to linguistic analysis tool 106 as search phrases 116 and receive one or more result phrases 130 from linguistic analysis tool 106 based upon search results 122. Linguistic interface 108 may then present one or more preferred phrases, based upon input to text buffer 112 by user 101 and without specific instruction from user 101 for such assistance. Thus, linguistic assistance system 100 may operate autonomously in a manner similar to spelling and grammar checkers (not shown) of word processor 110.

In an alternate embodiment, FIG. 2 shows one exemplary linguistic assistance system 200 similar to system 100, FIG. 1, where a linguistic analysis tool 206 is located within a search engine 202. A linguistic interface 208 within word processor 110 operates similarly to linguistic interface 108 but communicates with linguistic analysis tool 206 via internet 104. Linguistic interface 208 sends a search request 250 to linguistic analysis tool 206 via Internet 104. Search request 250 may include, or be accompanied by, a linguistic category 124 to instruct linguistic analysis tool 206 to restrict the search by search engine 202. Search request 250 may include one or more search phrases 216 determined by linguistic interface 208. Linguistic interface 208 determines search phrases 216, for example by analyzing its interaction with user 101 and/or by monitoring of text buffer 112. Linguistic analysis tool 206 then submits one or more search strings 220 to search engine 202 and receives search result 222 in return. Linguistic analysis tool 206 may then analyze search result 222 to determine one or more result phrases 230 that are returned to linguistic interface 208 as result set 252. Linguistic interface 208 may include analysis options 251 with search request 250 to specify one or more analysis preferences for linguistic analysis tool 206. In one example, analysis options 251 specify a type of search to be performed by search engine 202 and options for processing search results 222.

Upon receiving result set 252, linguistic interface 208 may interact with user 101 to allow selection of one or more result phrases 230 from result set 252. Alternatively, linguistic interface 208 may automatically insert result phrase 230 into text buffer 112.

FIG. 3 is a data flow diagram 300 illustrating exemplary operation of linguistic assistance system 100, FIG. 1 to use search engine 102 to determine a more correct phrase from a plurality of phrases 302. That is, linguistic assistance system 100 compares two phrases using search engine 102. Linguistic interface 108 is used to specify two phrases 302(1) and 302(2), each containing a phrase for evaluation against each other by linguistic assistance system 100. Phrases 302 are sent to linguistic analysis tool 106 where they are formed into search strings 304. In particular, linguistic analysis tool 106 creates search string 304(1) from phrase 302(1) and creates search string 304(2) from phrase 302(2). For example, linguistic analysis tool 106 includes phrase 302(1) within double quotes to form search string 304(1), and linguistic analysis tool 106 includes phrase 302(2) within double quotes to form search string 304(2).

Linguistic analysis tool 106 first submits search string 304(1) to search engine 102; search engine 102 sends search results 306(1) to linguistic analysis tool 106 in return. Then, linguistic analysis tool 106 submits search string 304(2) to search engine 102; search engine 102 sends search results 306(2) to linguistic analysis tool 106 in return. Search results 306(1) include a total hit value 308(1) that specifies the total number of hits found by search engine 102 for search string 304(1). Search results 306(2) include a total hit value 308(2) that specifies the total number of hits found by search engine 102 for search string 304(2). Where search engine 102 does not provide a hit count, linguistic analysis tool 106 may further interrogate search engine 102 to determine total hit values. Linguistic analysis tool 106 may then determine a result set 310 based upon submitted problem set 301, for return to linguistic interface 108. In one example, linguistic analysis tool 106 returns result set 310 containing one of phrases 302 as a selected phrase 312 based upon the greater of the determined total hit values 308. Linguistic interface 108 may then return selected phrase 312 to a user and/or automatically insert selected phrase 312 into the user's text.

In one embodiment, search engine 102 provides an interface to linguistic analysis tool 106 to facilitate searching and result retrieval. This interface may provide linguistic analysis tool 106 with other statistics of performed searches and results.

Although only two phrases are compared in the example of FIG. 3, more than two phrases may be compared by linguistic assistance system 100 without departing from the scope hereof.

FIG. 8 shows exemplary data 800 for comparing two phrases. Problem set 301 is shown with phrases 302(1), 302(2) of “in the beginning of this letter” and “at the beginning of this letter”, respectively, and type 303 is set to ‘compare’. Linguistic analysis tool 106 submits each phrase 302(1) and 302(2) to search engine 102 as search strings 304(1) and 304(2) and receives search results 306(1), 306(2) in return. Search results 306(1) show exemplary data returned by search engine 102 for phrase 302(1); search results 306(2) show exemplary data returned by search engine 102 for phrase 302(2). Search results 306(1) contain total hit value 308(1) with a value of 641 and search results 306(2) contain total hit value 308(2) with a value of 58,300. Thus, in this example, phrase 302(2) is used more often within the searched database than phrase 302(1) and linguistic analysis tool 106 therefore selects phrase 302(2) as being more correct.

Where the total hit values 308 are relatively close to one another, automatic selection of a preferred phrase may not occur. For example, where a first total hit value is 1008 and a second total hit value is 927, the second total hit value is 8% less that the first total hit value. Linguistic assistance system 100 may include a ‘minimum difference value’ (e.g., 20%) such that where compared total hit values are within this ‘minimum difference value’ of one another, each search result is displayed to the user and the user is allowed to select the preferred phrase based upon context. Alternatively, the user may modify one or more of the comparison phrases and perform another comparison.

FIG. 4 is a data flow diagram 400 illustrating exemplary operation of linguistic assistance system 100, FIG. 1, to use search engine 102 to complete a partial phrase. Linguistic interface 108 is used to specify a partial phrase 402 that contains words that form an incomplete phrase sought by the user. Partial phrase 402 is sent to linguistic analysis tool 106 where it is formed into search string 404.

Linguistic analysis tool 106 submits search string 404 to search engine 102; search engine 102 sends search results 406 to linguistic analysis tool 106 in return. Search results 406 include one or more context strings 408 (shown as N context strings) that each provide a found string in the context of search string 404. Linguistic analysis tool 106 then determines a result set 410 based upon submitted problem set 401, for return to linguistic interface 108. In one example, linguistic analysis tool 106 returns result set 410 containing a plurality of follow-on phrases 412 (shown as M phrases) for display to the user by linguistic interface 108. Based upon input to linguistic interface 108, one follow-on phrase 412 may be selected as selected phrase 414 and inserted into the user's text.

In one embodiment, as user 101 types text into text buffer 112 of word processor 110, linguistic assistance system 100 monitors the entered text and interaction by user 101 to automatically provide one or more phrases to complete a partial sentence entered by user 101. For example, when user 101 stops typing part way through a sentence, linguistic analysis tool 106 utilizes at least part of the partially entered sentence as partial phrase 402 and uses search engine 102 to retrieve follow-on phrases 412 that may be presented to user 101. That is, linguistic interface 108 and linguistic analysis tool 106 operates ‘behind the scenes’ of word processor 110 (e.g., similar to spelling and grammar checkers) to provide additional linguistic assistance to user 101.

FIG. 9 shows exemplary data 900 for completing the phrase “he is intelligent, but” using linguistic assistance system 100, FIG. 1 and search engine 102. Partial phrase 402 of problem set 401, FIG. 4, has a value of “he is intelligent, but” and type 403 is set to ‘complete’. Linguistic analysis tool 106 submits partial phrase 402 to search engine 102 and receives search results 406 in return. In the example of FIG. 9, search results 406 contain ten context strings 408(1)-408(10), each of which includes the phrase defined by phrase 402 and is shown within the context of the matched results. Thus, linguistic analysis tool 106 may display one or more of context strings 408 to the user (e.g., using linguistic interface 108) thereby allowing the user to select an appropriate way to continue their phrase.

FIG. 5 is a flowchart illustrating one method 500 for selecting a most correct phrase using a search engine. Method 500 may operate within one or both of linguistic interface 108 and linguistic analysis tool 106. In step 502, method 500 submits each phrase to a search engine. In one example of step 502, linguistic analysis tool 106 submits search string 304 containing phrase 302 to search engine 102. In step 504, method 500 receives search results from the search engine for each search string. In one example of step 504, linguistic analysis tool 106 receives search results 306 for each submitted search string 304. In step 506, the total numbers of hits for each search string are compared, and the phrase with the largest number of hits is selected as the preferred phrase in step 508. In one example of steps 506 and 508, linguistic analysis tool 106 compares total hit values 308 for each search string 304 and selects one of phrases 302 with the largest number of hits as selected phrase 312.

FIG. 6 is a flowchart illustrating one method 600 for completing a phrase, given a partial phrase, using a search engine. Method 600 may operate within one or both of linguistic interface 108 and linguistic analysis tool 106. In step 602, method 600 submits a partial phrase to a search engine as a search string. In one example of step 602, linguistic interface 108 submits a partial phrase to linguistic analysis tool 106, which in turn submits the partial phrase as search string 120 to search engine 102 via Internet 104. In step 604, method 600 receives a search result from the search engine containing a plurality of context strings that match the search string. In one example of step 604, linguistic analysis tool 106 receives, from search engine 102, search results 406 containing N context strings 408 that were found by search engine 102 based upon search string 404. In step 606, method 600 analyzes the context strings to identify one or more words to complete the partial phrase. In one example of step 606, linguistic analysis tool 106 analyzes context strings 408 to determine one or more follow-on phrases 412 that complete partial phrase 402 and returns these follow-on phrases 412 to linguistic interface 108 as result set 410.

FIG. 7 shows one exemplary interface window 700 that is presented by linguistic interface 108 to interact with a user. Interface window 700 has a linguistic category selection list 702 that allows the user to select one or more of a general category (e.g., all categories), technical works category, literary works category and news articles category. Other categories may be included within linguistic category selection list 702 without departing from the scope hereof.

An auto options group 704 allows the user to select desired actions upon determining results by system 100. A results options group 706 allows the user to specify whether results should be selected automatically by system 100 (the alternative being that result options are displayed for the user to select from), and if they are automatically selected, where they are inserted into the user's text—at the cursor position, or to replace the search phrase selected from the user's text.

A tabbed area 708, selectable through tabs 710 and 712, allows entry of phrases, or partial phrases, for the search. Where automatic detection of phrases is selected within auto options group 704, one or more phrases and/or partial phrases may be selected from the user's text and inserted within tabbed area 708.

Upon selection of search button 714, information of interface window 700 may be packed to form a problem set 301, 401, and sent to linguistic analysis tool 106.

Changes may be made in the above methods and systems without departing from the scope hereof. It should thus be noted that the matter contained in the above description or shown in the accompanying drawings should be interpreted as illustrative and not in a limiting sense. The following claims are intended to cover all generic and specific features described herein, as well as all statements of the scope of the present method and system, which, as a matter of language, might be said to fall there between. 

1. A method for providing linguistic assistance to complete a phrase, comprising: submitting a partial phrase as a search string to at least one search engine; receiving, from each of the at least one search engine, a search result containing a plurality of context strings that match with the search string; analyzing the plurality of context strings of the search result to identify one or more phrases to complete the partial phrase.
 2. A system for comparing two or more phrases to determine a preferred one of the two or more phrases, comprising: a linguistic analysis tool for retrieving search results from at least one search engine for each of the two or more phrases, the linguistic analysis tool evaluating the search results to determine the preferred one of the two or more phrases; and a linguistic interface for identifying the two or more phrases, the linguistic interface communicating with the linguistic analysis tool and identifying the preferred one of the two or more phrases to a user.
 3. The system of claim 2, the linguistic interface operating within a word processor.
 4. The system of claim 3, the linguistic interface automatically identifying the two or more phrases during operation of the word processor.
 5. The system of claim 3, the linguistic analysis tool operating within the word processor.
 6. The system of claim 2, the linguistic interface operating within a personal computer.
 7. The system of claim 2, the linguistic analysis tool operating within a personal computer.
 8. The system of claim 2, the linguistic analysis tool operating within the at least one search engine.
 9. The system of claim 2, the linguistic analysis tool limiting a scope of a search by the at least one search engine based upon a category selected within the linguistic interface.
 10. The system of claim 9, the category being preconfigured within the linguistic interface.
 11. A system for providing linguistic assistance in completing a phrase, comprising: a linguistic analysis tool for retrieving search results from at least one search engine for the phrase, the linguistic analysis tool processing the search results to determine one or more follow-on phrases; and a linguistic interface for identifying the phrase, the linguistic interface communicating with the linguistic analysis tool and displaying the one or more follow-on phrases for the phrase.
 12. The system of claim 11, the linguistic interface operating within a word processor.
 13. The system of claim 12, the linguistic interface automatically identifying the phrase during operation of the word processor.
 14. The system of claim 12, the linguistic analysis tool operating within the word processor.
 15. The system of claim 11, the linguistic interface operating within a personal computer.
 16. The system of claim 11, the linguistic analysis tool operating within a personal computer.
 17. The system of claim 11, the linguistic analysis tool operating within the at least one search engine.
 18. The system of claim 11, the linguistic analysis tool limiting a scope of a search by the at least one search engine based upon a category selected within the linguistic interface.
 19. The system of claim 18, the category being preconfigured within the linguistic interface. 